0000000000001551

AUTHOR

Kenneth Ruud

0000-0003-1006-8482

showing 6 related works from this author

Gauge-origin independent calculation of magnetizabilities and rotational g tensors at the coupled-cluster level.

2007

An implementation of the gauge-origin independent calculation of magnetizabilities and rotational g tensors at the coupled-cluster (CC) level is presented. The properties of interest are obtained as second derivatives of the energy with respect to the external magnetic field (in the case of the magnetizability) or with respect to magnetic field and rotational angular momentum (in the case of the rotational g tensor), while gauge-origin independence and fast basis-set convergence are ensured by using gauge-including atomic orbitals (London atomic orbitals) as well as their extension to treat rotational perturbations (rotational London atomic orbitals). The implementation within our existing …

Angular momentumCoupled clusterMagnetic momentAtomic orbitalChemistryQuantum mechanicsGeneral Physics and AstronomyRotational transitionRotational temperatureTensorPhysical and Theoretical ChemistryAtomic physicsRotational partition functionThe Journal of chemical physics
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Ab initio calculations of zero-field splitting parameters in linear polyacenes

2003

Abstract The results of ab initio calculations of zero-field splitting (ZFS) parameters are presented for the linear polyacenes from benzene to pentacene. We show how the electron spin–spin (SS) parameters can be efficiently obtained from restricted high-spin open-shell wave functions (ROHF), and present calculations of these, comparing with the results of a recent multi-configurational self-consistent field approach. The SS parameters are obtained from electron SS coupling strengths evaluated as expectation values over the wave functions and from state-to-state spin–orbit (SO) interactions. The results for the two lowest triplet states of naphthalene demonstrate that excellent values can b…

Electronic correlationField (physics)Condensed matter physicsChemistryGeneral Physics and AstronomyZero field splittingMolecular physicsAb initio quantum chemistry methodsSinglet statePhysics::Chemical PhysicsPhysical and Theoretical ChemistryTriplet stateWave functionSpin (physics)Chemical Physics
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The Dalton quantum chemistry program system

2013

Dalton is a powerful general-purpose program system for the study of molecular electronic structure at the Hartree-Fock, Kohn-Sham, multiconfigurational self-consistent-field, MOller-Plesset, confi ...

Physics::Computational PhysicsPhysicsNuclear TheoryBiochemistryQuantum chemistryComputer Science ApplicationsComputational MathematicsComputational chemistryAb initio quantum chemistry methodsQuantum mechanicsMolecular electronic structurePhysics::Atomic and Molecular ClustersMaterials ChemistryPhysics::Atomic PhysicsPhysics::Chemical PhysicsPhysical and Theoretical ChemistryWiley Interdisciplinary Reviews: Computational Molecular Science
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Analytic evaluation of the dipole Hessian matrix in coupled-cluster theory

2013

The general theory required for the calculation of analytic third energy derivatives at the coupled-cluster level of theory is presented and connected to preceding special formulations for hyperpolarizabilities and polarizability gradients. Based on our theory, we have implemented a scheme for calculating the dipole Hessian matrix in a fully analytical manner within the coupled-cluster singles and doubles approximation. The dipole Hessian matrix is the second geometrical derivative of the dipole moment and thus a third derivative of the energy. It plays a crucial role in IR spectroscopy when taking into account anharmonic effects and is also essential for computing vibrational corrections t…

Hessian matrixChemistryAnharmonicityGeneral Physics and AstronomyVDP::Mathematics and natural science: 400::Chemistry: 440::Theoretical chemistry quantum chemistry: 444Third derivativeMoment (mathematics)symbols.namesakeDipoleCoupled clusterClassical mechanicsPolarizabilityQuantum mechanicssymbolsNumerical differentiationPhysical and Theoretical ChemistryVDP::Matematikk og Naturvitenskap: 400::Kjemi: 440::Teoretisk kjemi kvantekjemi: 444
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Code Interoperability and Standard Data Formats in Quantum Chemistry and Quantum Dynamics: The Q5/Q5cost Data Model

2014

Code interoperability and the search for domain-specific standard data formats represent critical issues in many areas of computational science. The advent of novel computing infrastructures such as computational grids and clouds make these issues even more urgent. The design and implementation of a common data format for quantum chemistry (QC) and quantum dynamics (QD) computer programs is discussed with reference to the research performed in the course of two Collaboration in Science and Technology Actions. The specific data models adopted, Q5Cost and D5Cost, are shown to work for a number of interoperating codes, regardless of the type and amount of information (small or large datasets) …

Theoretical computer scienceGrid ComputingComputer scienceDistributed computingInteroperability010402 general chemistrycomputer.software_genre01 natural sciencesData typegrid computingData modelingquantum chemistryquantum dynamicQuantum DynamicsCode interoperability0103 physical sciencesprogram interoperabilityCommon Data FormatComputingMilieux_MISCELLANEOUSdata format010304 chemical physicsChemistry (all)General ChemistryQuantum ChemistryGridData Format0104 chemical sciences[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryComputational MathematicsGrid computingData modelProof of conceptcomputerCode interoperability; Quantum Chemistry; Quantum Dynamics; Data Format; Grid ComputingJ. Comput. Chem.
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Communication: The absolute shielding scales of oxygen and sulfur revisited

2015

Copyright 2015 AIP Publishing. This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. The following article appeared in Journal of Chemical Physics 2015, 142 and may be found at http://dx.doi.org/10.1063/1.4913634 We present an updated semi-experimental absolute shielding scale for the 17O and 33S nuclei. These new shielding scales are based on accurate rotational microwave data for the spin–rotation constants of H2 17O [Puzzarini et al., J. Chem. Phys. 131, 234304 (2009)], C17O [Cazzoli et al., Phys. Chem. Chem. Phys. 4, 3575 (2002)], and H2 33S [Helgaker et al., J. Chem. Phys. 139, 244308 (2013)] corrected both for v…

PhysicsVDP::Mathematics and natural science: 400::Chemistry: 440VDP::Matematikk og Naturvitenskap: 400::Kjemi: 440business.industryQuantum mechanicsMicrowave spectraInternet privacyGeneral Physics and AstronomyPhysics::Chemical PhysicsPhysical and Theoretical ChemistrybusinessThe Journal of Chemical Physics
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